Hi everyone! This is my new page I made. You like it? I think it would be cool if we started a webpage about dragons and our opinions about them. Were they real? Were they not real? Did they eat chicken? Or did they eat Jack Links Beef Jerky? Did they even have jerky whey back when?!
p.s: that was totally irrelevent. Or is it errilvelent? Im not sure if its ereleverent or irrelerverent!!!
p.p.s : that was irrelerverntentent, too.
ALSO: Other than dragons, I like SPORE. I
DIG IT!!!!!!!!!!!!!!!!!!!!!!! I
V
my fave book iz the SPORE game guide it tells u the secrets of the spore universe u can get it a target 4 20 bucks reely it helps alot if u got the game by the by the gam iz 50 bucks and u get the creators including the space ages and vehicle creators and tribal age and civilazation age and the hardest thing 2 beet is the grox there an awesome civilzation that you
either befriend and die or you defeat them after u die 5,000,000 timez by sum wimp but ya u get acheevments and stuff so ya. also u get to find stuff and sell it 4 somtin like 46,000,000 sporebukz which is really reely expensive except 4 1 thing that is67,000,000 spore bukz
by the way i will publish my theroy of relitivity. E=mc2 is the thing that made the atom bomb.energy=mass at the speed of light. this would mean that you could actually get hit by light and get sent flying back, but it moves tooo fast to hit you and send you backwards. In simple terms, this is the equation. it is clear that two events that are simultaneous in frame S (satisfying ), are not necessarily simultaneous in another inertial frame S' (satisfying ). Only if these events are colocal in frame S (satisfying ), will they be simultaneous in another frame S'. Writing the Lorentz transformation and its inverse in terms of coordinate differences we get (missing data) and (missing data) Suppose we have a clock at rest in the unprimed system S. Two consecutive ticks of this clock are then characterized by Δx = 0. If we want to know the relation between the times between these ticks as measured in both systems, we can use the first equation and find: for events satisfying This shows that the time Δt' between the two ticks as seen in the 'moving' frame S' is larger than the time Δt between these ticks as measured in the rest frame of the clock. This phenomenon is called time dilation. Similarly, suppose we have a measuring rod at rest in the unprimed system. In this system, the length of this rod is written as Δx. If we want to find the length of this rod as measured in the 'moving' system S', we must make sure to measure the distances x' to the end points of the rod simultaneously in the primed frame S'. In other words, the measurement is characterized by Δt' = 0, which we can combine with the fourth equation to find the relation between the lengths Δx and Δx': for events satisfying This shows that the length Δx' of the rod as measured in the 'moving' frame S' is shorter than the length Δx in its own rest frame. This phenomenon is called length contraction or Lorentz contraction. These effects are not merely appearances; they are explicitly related to our way of measuring time intervals between events which occur at the same place in a given coordinate system (called "co-local" events). These time intervals will be different in another coordinate system moving with respect to the first, unless the events are also simultaneous. Similarly, these effects also relate to our measured distances between separated but simultaneous events in a given coordinate system of choice. If these events are not co-local, but are separated by distance (space), they will not occur at the same spacial distance from each other when seen from another moving coordinate system. (courtesey of Wikipeidea). HEHEHEHEHEHEHEHEHEHEHEE!!!!!!!!!!!!
p.s: that was totally irrelevent. Or is it errilvelent? Im not sure if its ereleverent or irrelerverent!!!
p.p.s : that was irrelerverntentent, too.
ALSO: Other than dragons, I like SPORE. I
DIG IT!!!!!!!!!!!!!!!!!!!!!!! I
V
Click here or here or here or here!
my fave book iz the SPORE game guide it tells u the secrets of the spore universe u can get it a target 4 20 bucks reely it helps alot if u got the game by the by the gam iz 50 bucks and u get the creators including the space ages and vehicle creators and tribal age and civilazation age and the hardest thing 2 beet is the grox there an awesome civilzation that you
either befriend and die or you defeat them after u die 5,000,000 timez by sum wimp but ya u get acheevments and stuff so ya. also u get to find stuff and sell it 4 somtin like 46,000,000 sporebukz which is really reely expensive except 4 1 thing that is67,000,000 spore bukz
by the way i will publish my theroy of relitivity. E=mc2 is the thing that made the atom bomb.energy=mass at the speed of light. this would mean that you could actually get hit by light and get sent flying back, but it moves tooo fast to hit you and send you backwards. In simple terms, this is the equation.
it is clear that two events that are simultaneous in frame S (satisfying ), are not necessarily simultaneous in another inertial frame S' (satisfying ). Only if these events are colocal in frame S (satisfying ), will they be simultaneous in another frame S'. Writing the Lorentz transformation and its inverse in terms of coordinate differences we get
(missing data)
and
(missing data)
Suppose we have a clock at rest in the unprimed system S. Two consecutive ticks of this clock are then characterized by Δx = 0. If we want to know the relation between the times between these ticks as measured in both systems, we can use the first equation and find:
for events satisfying
This shows that the time Δt' between the two ticks as seen in the 'moving' frame S' is larger than the time Δt between these ticks as measured in the rest frame of the clock. This phenomenon is called time dilation.
Similarly, suppose we have a measuring rod at rest in the unprimed system. In this system, the length of this rod is written as Δx. If we want to find the length of this rod as measured in the 'moving' system S', we must make sure to measure the distances x' to the end points of the rod simultaneously in the primed frame S'. In other words, the measurement is characterized by Δt' = 0, which we can combine with the fourth equation to find the relation between the lengths Δx and Δx':
for events satisfying
This shows that the length Δx' of the rod as measured in the 'moving' frame S' is shorter than the length Δx in its own rest frame. This phenomenon is called length contraction or Lorentz contraction.
These effects are not merely appearances; they are explicitly related to our way of measuring time intervals between events which occur at the same place in a given coordinate system (called "co-local" events). These time intervals will be different in another coordinate system moving with respect to the first, unless the events are also simultaneous. Similarly, these effects also relate to our measured distances between separated but simultaneous events in a given coordinate system of choice. If these events are not co-local, but are separated by distance (space), they will not occur at the same spacial distance from each other when seen from another moving coordinate system. (courtesey of Wikipeidea). HEHEHEHEHEHEHEHEHEHEHEE!!!!!!!!!!!!